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Users play a key role in many training strategies, yet many organizations, which are directly or indirectly involved in training those who design and implement training programs, often fail to understand the users' perception after a simulation training implementation. In addition, there exists a lack of significant motivation to understand users' attitudes about acceptance, rejection, or integration of emerging simulation technology in training. Several factors are considered to contribute to the acceptance level of simulation training by the users, including cost, the existing training, certification policies, technical issue, and realism of training. Other contributing factors that shape users' attitudes about the use of simulators in training include, but are not limited to: values, concerns, effectiveness to teach the required skill, and the effect on the training outcome.In this research-based book, the author shares and discusses the lived experiences of medical simulation training users in decision making and non-decision making roles who had been involved in simulation training at least for one year. In addition, this book contains information about concepts of simulation training, a historical perspective of simulation technology across industries, and simulation training users' perceptions, their lived experiences, feelings associated with the experience, and interactions. The book discusses how those feelings, perceptions, opinions, attitudes, and interactions have evolved. The users' perception, beliefs, and feelings all affect their interpersonal dynamics, interactions, and communications during the adoption and implementation of simulation technology. Understanding medical simulation training through the users' perspectives can redefine how trainees communicate, interact, share, and learn in simulated environments. The identified factors discussed by users in this book help with the subsequent additions and modifications to the existing simulation training strategies in the medical field, which may be applicable to other industries. Simulation training supplements passive learning environments, which enables trainees to practice knowledge, skills, abilities, and attitudes acquired in a passive training environment, and empowers trainees to use their learned skills in real world situations.
Users play a key role in many training strategies, yet many organisations, which are directly or indirectly involved in training those who design and implement training programs, often fail to understand the users perception after a simulation training implementation. In addition, there exists a lack of significant motivation to understand users attitudes about acceptance, rejection, or integration of emerging simulation technology in training. Several factors are considered to contribute to the acceptance level of simulation training by the users, including cost, the existing training, certification policies, technical issue, and realism of training. Other contributing factors that shape users attitudes about the use of simulators in training include, but are not limited to: values, concerns, effectiveness to teach the required skill, and the effect on the training outcome. In this research-based book, the author shares and discusses the lived experiences of medical simulation training users in decision making and non-decision making roles who had been involved in simulation training at least for one year. In addition, this book contains information about concepts of simulation training, a historical perspective of simulation technology across industries, and simulation training users perceptions, their lived experiences, feelings associated with the experience, and interactions. The book discusses how those feelings, perceptions, opinions, attitudes, and interactions have evolved. The users perception, beliefs, and feelings all affect their interpersonal dynamics, interactions, and communications during the adoption and implementation of simulation technology. Understanding medical simulation training through the users perspectives can redefine how trainees communicate, interact, share, and learn in simulated environments. The identified factors discussed by users in this book help with the subsequent additions and modifications to the existing simulation training strategies in the medical field, which may be applicable to other industries. Simulation training supplements passive learning environments, which enables trainees to practice knowledge, skills, abilities, and attitudes acquired in a passive training environment, and empowers trainees to use their learned skills in real world situations.
This volume explores the development process of a Virtual Reality (VR) and web-based medical training system from a user-centred perspective. It highlights the importance of user participation in this context by analysing two case studies concerned with the development of a VR and web-based medical training system for Spinal Anaesthesia. It illustrates the relationship between user participation and the development process of a VR and web-based medical training system. User groups, along with their input and degrees of participation and influence, are classified. It shows how a democratic arrangement between users and developers is beneficial and maybe even mandatory in order to utilise the users’ guidance efficiently. In this arrangement, the use of prototypes is instrumental in bridging the expertise and knowledge gap between users and developers. Reading this volume may aid other research teams developing VR and web-based medical training systems in deciding if, why and how to involve relevant user groups in the overall development process.
This book offers various ways in which analyzing professional experience and activity in simulation training makes it possible to describe practice-based learning affordances and processes. Research has been conducted in various simulation programs in the domains of healthcare, victim rescue and population protection, involving healthcare workers, firemen, policemen, servicemen, and civil security leaders. "Work-as-done" (/ "training-as-done") in simulation has been analyzed with ergonomics, occupational psychology, and vocational training approaches. The authors describe and discuss theoretical, methodological, and/or practical issues related to practitioner experience and activity in simulation training. The book also provides evidence on the conditions under which lived experience in simulation can foster or hinder learning, and derives appropriate orientations for simulation design and implementation.
Simulation facilities are invaluable for training in medicine and clinical education, biomedical engineering and life sciences. They allow the practice of prevention, containment, treatment, and procedure in a risk-free setting. This book is a practical guide and reference to the latest technology, operations and opportunities presented by clinical simulation. It shows how to develop and make efficient use of resources, and provides hands-on information to those tasked with setting up and delivering simulation facilities for medical, clinical and related purposes, and the development and delivery of simulation-based education programs A step-by-step manual to developing successful simulation programs Shows how to design, construct, outfit and run simulation facilities for clinical education and research. The Residency Review Committee of the US Accreditation Council on Graduate Medical Education has begun requiring residency programs to have simulation as an integral part of their training programs.
Written by a leading team from the Australian Society for Simulation in Healthcare (ASSH), Simulation Australasia, Healthcare Simulation Education is a new resource for a rapidly expanding professional healthcare simulation community. Designed as a core reference for educators who use simulation as an educational method, it outlines theory, evidence and research relevant to healthcare simulation. Containing examples of innovations from around the world, the book offers opportunities to make clear connections between the underlying rationale for the use of simulation, and what this looks like in practice. Healthcare Simulation Education: Helps readers gain a systematic understanding of theory and application of simulation Facilitates access to high quality resources to support healthcare simulation education and research Edited by a leading team from the Australian Society for Simulation in Healthcare (ASSH), the leading body for healthcare simulation in Australia Contains information on educational theory, the elements of simulation practice and contemporary issues in simulation An important text in healthcare literature and practice, Healthcare Simulation Education provides a unique cross-disciplinary overview of an innovative subject area, and is ideal for medical, nursing and allied health educators, policy makers and researchers.
Researching Medical Education is an authoritative guide to excellence in educational research in the health professions. Presented by the Association for the Study of Medical Education and the Association for Medical Education in Europe, Researching Medical Education includes contributions from a team of international clinicians and non-clinical researchers in health education, representing a range of disciplines and backgrounds. This accessible reference provides readers with the basic building blocks of research, introduces a range of theories and how to use them, illustrates a diversity of methods and their use, and gives guidance on practical researcher development. By linking theory and design and methods across the health profession education research spectrum, this book supports the improvement of quality, capacity building and knowledge generation. Researching Medical Education is the ideal resource for anyone researching health education, from undergraduate, through postgraduate training, to continuing professional development.
The Comprehensive Textbook of Healthcare Simulation is a cohesive, single-source reference on all aspects of simulation in medical education and evaluation. It covers the use of simulation in training in each specialty and is aimed at healthcare educators and administrators who are developing their own simulation centers or programs and professional organizations looking to incorporate the technology into their credentialing process. For those already involved in simulation, the book will serve as a state-of-the-art reference that helps them increase their knowledge base, expand their simulation program’s capabilities, and attract new, additional target learners. Features: • Written and edited by pioneers and experts in healthcare simulation • Personal memoirs from simulation pioneers • Each medical specialty covered • Guidance on teaching in the simulated environment • Up-to-date information on current techniques and technologies • Tips from “insiders” on funding, development, accreditation, and marketing of simulation centers • Floor plans of simulation centers from across the United States • Comprehensive glossary of terminology
An Official Publication of the Society for Simulation in Healthcare, Defining Excellence in Simulation Programs aims to meet the needs of healthcare practitioners using simulation techniques for education, assessment, and research. Increasingly, simulation is an integral part of teaching and training programs in healthcare settings around the world. Simulation models, including virtual simulation, scenario-based simulation with actors, and computerized mannequins, contributes to improved performance and reduced errors in patient care. This text establishes working definitions and benchmarks for the field of simulation and defines the types of simulation programs, while also covering program leadership, funding, staffing, equipment and education models. It provides knowledge critical to the success of simulation program management, simulation educators, and simulation researchers. Written to appeal to the novice to advanced beginner, a special section in each chapter is directed to the competent to expert programs, managers, educators, and researchers, so that this text truly can serve as the comprehensive reference for anyone in simulation.
Healthcare Simulation at a Glance presents an accessible overview of everything you need to know about simulation in clinical practice and healthcare education. From embedding simulation in programmes, to technical and non-technical features of simulation in a variety of contexts, to how simulation can be used in assessment and the provision of feedback to healthcare professionals, this practical guide is the perfect resource for developing the skills and knowledge required as both a student and an educator. Healthcare Simulation at a Glance: Introduces the concepts and theories underpinning simulation practice Provides an understanding of the key terms and processes involved Includes a range of examples and tips for easy application in practice Healthcare Simulation at a Glance is ideal for both those new to using simulation in education, as well as experienced academics.